This paper presents simulation results of the interaction of TiC nanoparticle in liquid aluminum. The behavior of the TiC particle in the frontal interaction region stems from the operation of a system of such forces as gravity, viscous flow drag force, and Saffman force. The difference in density between the TiC and the aluminum matrix makes the particle fall, regardless of the radius dimension; while the Saffman force-which accounts for the local velocity gradient of the liquid aluminum-causes that particles with the smallest radii considered in the calculations 6.4 × 10-8 m; 7 × 10-8 m; 7.75 × 10-8 m; 9.85 × 10-8 m are repelled from the solidification front and the particles with 15.03 × 10-8 m are attracted to it. The viscosity growth in the course of casting caused by the lowering temperature reduces this effect, though the trend is maintained. The degree to which the particle is attracted to the front clearly depends on the velocity gradient of the liquid phase. For a very small gradient of 0.00001 m/s, the particle is at its closest position relative to the front.
Keywords: TiC nanoparticles; aluminum composite; filler phase interaction; flow gradient; solidification front.